Snow Canyon State Park, Washington County, Utah
Photographer: J. Buck Ehler
Iron concretions lie on top of the Navajo Sandstone in Snow Canyon State Park, Washington County. Utah’s red sandstone contains an iron-oxide mineral called hematite. When hematite is bleached from the sandstone, the stone appears almost white. When hematite is concentrated in concretions, they can appear almost black.
Snow Canyon State Park, Washington County, Utah
Photographer: Lance Weaver
Red- and white-stained Navajo Sandstone in Snow Canyon State Park, Washington County.
Grand Staircase–Escalante National Monument, Garfield County, Utah
Photographer: Michael Vanden Berg
Sausageleaf talinum finds suitable habitat in sand and spherical concretions eroded from the lower part of the Jurassic-aged Navajo Sandstone. The concretions (about half an inch in diameter) formed when iron-oxide minerals precipitated out of ground water that flowed through the sandstone.
Great Salt Lake is a modern hypersaline lake and a remnant of freshwater Pleistocene Lake Bonneville. It serves as a modern analogue to the Uinta Basin’s lacustrine Green River Formation and lacustrine microbial formations worldwide, including several recent very large oil discoveries in the deepwater offshore Brazil (pre-salt Santos Basin and others). Actively forming microbial stromatolites, pustular thrombolites, and tufa deposits are found within the lake and along its shores. Beaches and nearby dunes consist of abundant associated hypersaline ooids, coated grains, peloids, and rip-up clasts.
Recently, a few geologists from the UGS traveled to Antelope Island in the Great Salt Lake to investigate the modern microbial carbonates (i.e., bioherms) first hand. The most convenient place to see the bioherms is in Bridger Bay on the northwest side of the island. The bioherms live in roughly 1 to 3 feet of water, of course this will depend on overall lake level elevation. Now is a good time to see these unique structures as the lake level is quite low.
Geologists from around the world have traveled to Utah to see these modern bioherms and relate their depositional environment back to ancient examples that now serve as excellent oil reservoirs.
Wall Arch, Arches National Park, Grand County, Utah
Photographers: Grant Willis (top)
and Rich Giraud (bottom)
Now you see it, now you don’t. Formerly located along the Devils Garden Trail in Arches National Park, Wall Arch collapsed sometime during the night of August 4th, 2008.
Arches National Park, Grand County, Utah
Photographer: Michael Vanden Berg
A small window in the Slick Rock Member of the Entrada Sandstone frames a view of Utah’s most famous landform, Delicate Arch. The arch is composed of Jurassic-aged sandstone including the Slick Rock Member (base and pedestals) and Moab Member of the Curtis Formation (bridge). In the distance, Oligocene-aged igneous rock forms the snow-covered La Sal Mountains.
esa.int
The East African Rift is an area where two tectonic plates are moving apart, making it a region of high geological activity, home to a number of volcanoes.
San Juan River near Mexican Hat, San Juan County, Utah
Photographer: Tyler Knudsen
Rock layers are folded in some areas of the Colorado Plateau, such as these on the flank of the Raplee anticline along the San Juan River near Mexican Hat, San Juan County.
kcpw.com
The University of Utah is starting a new masters program in petroleum engineering to help fill high paying jobs that are available in the industry. But some say this is short sighted and fossil fuels are on the way out. KCPW Reporter Kim Schuske has this story.
The Utah Geological Survey (UGS) is a division of the Utah Department of Natural Resources. Several specialized programs comprise the UGS: Data Management, Energy & Minerals, Geologic Hazards, Geologic Information & Outreach, Geologic Mapping, Groundwater & Wetlands, and Paleontology.
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